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SCImago
Q1
WOS
Q1
Impact factor
3.2
SJR
1.060
CiteScore
7.2
Categories
Energy Engineering and Power Technology
Geotechnical Engineering and Engineering Geology
Energy (miscellaneous)
Areas
Earth and Planetary Sciences
Energy
Years of issue
1969-1973, 1996-2025
journal names
SPE Journal
SPE J
Top-3 citing journals

Journal of Petroleum Science and Engineering
(6678 citations)

SPE Journal
(4635 citations)

Energy & Fuels
(2859 citations)
Top-3 organizations

Texas A&M University
(217 publications)

University of Texas at Austin
(217 publications)

China University of Petroleum (Beijing)
(194 publications)

China University of Petroleum (East China)
(127 publications)

China University of Petroleum (Beijing)
(117 publications)

Texas A&M University
(81 publications)
Most cited in 5 years
Found
Publications found: 20051
Q1

Metasurfaces with Multipolar Resonances and Enhanced Light–Matter Interaction
Arup E.M., Liu L., Mekonnen H., Bosomtwi D., Babicheva V.E.
Metasurfaces, composed of engineered nanoantennas, enable unprecedented control over electromagnetic waves by leveraging multipolar resonances to tailor light–matter interactions. This review explores key physical mechanisms that govern their optical properties, including the role of multipolar resonances in shaping metasurface responses, the emergence of bound states in the continuum (BICs) that support high-quality factor modes, and the Purcell effect, which enhances spontaneous emission rates at the nanoscale. These effects collectively underpin the design of advanced photonic devices with tailored spectral, angular, and polarization-dependent properties. This review discusses recent advances in metasurfaces and applications based on them, highlighting research that employs full-wave numerical simulations, analytical and semi-analytic techniques, multipolar decomposition, nanofabrication, and experimental characterization to explore the interplay of multipolar resonances, bound and quasi-bound states, and enhanced light–matter interactions. A particular focus is given to metasurface-enhanced photodetectors, where structured nanoantennas improve light absorption, spectral selectivity, and quantum efficiency. By integrating metasurfaces with conventional photodetector architectures, it is possible to enhance responsivity, engineer photocarrier generation rates, and even enable functionalities such as polarization-sensitive detection. The interplay between multipolar resonances, BICs, and emission control mechanisms provides a unified framework for designing next-generation optoelectronic devices. This review consolidates recent progress in these areas, emphasizing the potential of metasurface-based approaches for high-performance sensing, imaging, and energy-harvesting applications.
Q1

A New Method for Accelerated Aging of Nanoparticles to Assess the Colloidal Stability of Albumin-Coated Magnetic Nanoparticles
Nikolaev B., Yakovleva L., Fedorov V., Yudintceva N., Tarasova D., Perepelitsa E., Dmitrieva A., Sulatsky M., Srinivasan S., Sonawane S.H., Srivastava A., Gupta S., Sonawane A., Combs S.E., Shevtsov M.
The colloidal long-storage stability of nanosized drugs is a crucial factor for pharmacology, as they require much time for robust estimation. The application of bioavailable magnetic nanosuspensions in theranostics is limited by incomplete information about their colloidal stability in the internal media of human organisms. A method for the accelerated temperature stress “aging” of magnetic nanosized suspensions is proposed for the rapid assessment and prediction of the colloidal stability over time of nanosized iron oxide suspensions stabilized by albumin HSA. Colloidal stability is assessed using dynamic light scattering (DLS), fluorescence spectroscopy, electrophoresis, and ion monitoring methods during short- and long-term storage. Rapid assessment is achieved by short high-temperature (70 °C) processing of carboxymethyl-dextran-coated nanosol in the presence of albumin. The role of albumin in the sustained stability of superparamagnetic iron oxide particles (SPIONs) was studied under conditions mimicking blood plasma (pH = 7.4) and endolysosomal cell compartments (pH = 5.5). According to the fluorescence quenching and DLS data, colloidal stability is ensured by the formation of an HSA corona on carboxymethyl-dextran-coated SPIONs and their process of clustering. In the presence of albumin, the colloidal stability of nanoparticles is shown to increase from 80 to 121 days at a storage temperature of 8 °C The prognostic shelf life of magnetic nanosol is estimated by calculating the Van’t Hoff’s relation for the rate of chemical reactions. The validity of using the Van’t Hoff’s rule is confirmed by the agreement of the calculated activation energy at 8 °C and 70 °C. The developed method of the accelerated aging of nanoparticles can not only be employed for the estimation of the shelf life of magnetic nanoparticles coated with HSA in vitro but also for assessing the stability of SPIONs applied in vivo.
Q1

Atomic Layer Deposition of Nickel Oxides as Electrocatalyst for Oxygen Evolution Reaction
Chen J., Dai R., Ma H., Lin Z., Li Y., Xi B.
In this study, we present atomic layer deposition (ALD) of nickel oxides (NiOx) using a new nickel precursor, (methylcyclopentadienyl)(cyclopentadienyl)nickel (NiCp(MeCp)), and ozone (O3) as the oxygen source. The process features a relatively short saturation pulse of the precursor (NiCp(MeCp)) and a broad temperature window (150–250 °C) with a consistent growth rate of 0.39 Å per cycle. The NiOx film deposited at 250 °C primarily exhibits a polycrystalline cubic phase with minimal carbon contamination. Notably, the post-annealed ALD NiOx film demonstrates attractive electrocatalytic performance on the oxygen evolution reaction (OER) by providing a low overpotential of 320 mV at 10 mA cm−2, a low Tafel slope of 70.5 mV dec−1, and sufficient catalytic stability. These results highlight the potential of the ALD process using the NiCp(MeCp) precursor for the fabrication of high-activity catalysts.
Q1

Nanoparticles as Strategies for Modulating the Host’s Response in Periodontitis Treatment
Mlachkova A., Dosseva-Panova V., Maynalovska H., Pashova-Tasseva Z.
Periodontitis is a widespread disease, associated with challenges both in its diagnosis and in selecting from various therapeutic approaches, which do not always yield the expected success. This literature review was conducted to explore diverse therapeutic approaches, especially those focused on nanotechnologies, and their potential contribution to the successful modulation of the host’s response. The effects of the existing microbial diversity and the imbalance of key microbial species in contributing to the progression and worsening of the host’s response in periodontitis are well known. It is essential to understand the role of a well-structured treatment plan for periodontitis, providing opportunities for new research and innovative treatment strategies aimed at reducing the impact of periodontitis on oral and overall systemic health. This will be beneficial for dental professionals, enabling them to effectively prevent and treat periodontitis, ultimately improving the overall health and well-being of patients.
Q1

Synthesis of Turbostratic Graphene Derived from Biomass Waste Using Long Pulse Joule Heating Technique
Watcharamaisakul S., Janphuang N., Chueangam W., Srisom K., Rueangwittayanon A., Rittihong U., Tunmee S., Chanlek N., Pornsetmetakul P., Wirojsirasak W., Watanarojanaporn N., Ruethaivanich K., Janphuang P.
This study addresses the challenge of the scalable, cost-effective synthesis of high-quality turbostratic graphene from low-cost carbon sources, including biomass waste such as sugarcane leaves, bagasse, corncobs, and palm bunches, using the Direct Current Long Pulse Joule Heating (DC-LPJH) technique. By optimizing the carbonization process and blending biomass-derived carbon with carbon black and turbostratic graphene, the gram-scale production of turbostratic graphene was achieved in just a few seconds. The synthesis process involved applying an 18 kJ electrical energy pulse for 1.5 s, resulting in temperatures of approximately 3000 K that facilitated the transformation of the carbon atoms into well-ordered turbostratic graphene. Structural and morphological characterization via Raman spectroscopy revealed low-intensity or absent D bands, with a high I2D/IG ratio (~0.8–1.2), indicating monolayer turbostratic graphene formation. X-ray photoelectron spectroscopy (XPS) identified sp2-hybridized carbon and oxygenated functional groups, while NEXAFS spectroscopy confirmed the presence of graphitic features and both sp2 and sp3 bonding states. Energy consumption calculations for the DC-LPJH process demonstrated approximately 10 kJ per gram, demonstrating the potential for cost-effective production. This work presents an efficient approach for producing high-quality turbostratic graphene from low-cost carbon sources, with applications in enhancing the properties of composites, polymers, and building materials.
Q1

Constructing of Ni-Nx Active Sites in Self-Supported Ni Single-Atom Catalysts for Efficient Reduction of CO2 to CO
Zhou X., Meng C., Yu W., Wang Y., Cui L., Li T., Wang J.
The electrochemical carbon dioxide reduction reaction (CO2RR) represents a promising approach for achieving CO2 resource utilization. Carbon-based materials featuring single-atom transition metal-nitrogen coordination (M-Nx) have attracted considerable research attention due to their ability to maximize catalytic efficiency while minimizing metal atom usage. However, conventional synthesis methods often encounter challenges with metal particle agglomeration. In this study, we developed a Ni-doped polyvinylidene fluoride (PVDF) fiber membrane via electrospinning, subsequently transformed into a nitrogen-doped three-dimensional self-supporting single-atom Ni catalyst (Ni-N-CF) through controlled carbonization. PVDF was partially defluorinated and crosslinked, and the single carbon chain is changed into a reticulated structure, which ensured that the structure did not collapse during carbonization and effectively solved the problem of runaway M-Nx composite in the high-temperature pyrolysis process. Grounded in X-ray photoelectron spectroscopy (XPS) and X-ray absorption fine structure (XAFS), nitrogen coordinates with nickel atoms to form a Ni-N structure, which keeps nickel in a low oxidation state, thereby facilitating CO2RR. When applied to CO2RR, the Ni-N-CF catalyst demonstrated exceptional CO selectivity with a Faradaic efficiency (FE) of 92%. The unique self-supporting architecture effectively addressed traditional electrode instability issues caused by catalyst detachment. These results indicate that by tuning the local coordination structure of atomically dispersed Ni, the original inert reaction sites can be activated into efficient catalytic centers. This work can provide a new strategy for designing high-performance single-atom catalysts and structurally stable electrodes.
Q1

Development and Characterization of PEGylated Poly D,L-Lactic Acid Nanoparticles for Skin Rejuvenation
Lee S., Moon H., Lee S., Cho J.
Recently, various biocompatible and biodegradable materials have garnered significant attention as cosmetic fillers for skin rejuvenation. Among these, poly ε-caprolactone (PCL), poly L-lactic acid (PLLA), poly D,L-lactic acid (PDLLA), and polydioxanone (PDO) microspheres have been developed and commercialized as a dermal filler. However, its irregularly hydrophobic microspheres pose hydration challenges, often causing syringe needle blockages and side effects such as delayed onset nodules and papules after the procedure. In this study, we synthesized a polyethylene glycol-poly D,L-lactic acid (mPEG-PDLLA) copolymer to address the limitations of conventional polymer fillers. Comprehensive characterization of the copolymer was performed using nuclear magnetic resonance spectroscopy, Fourier transform infrared spectroscopy, and differential scanning calorimetry. The mPEG-PDLLA copolymers demonstrated a unimodal size distribution of approximately 121 ± 20 nm in an aqueous solution. The in vitro cytotoxicity and collagen genesis of mPEG-PDLLA copolymers were evaluated using human dermal fibroblast cells. In this study, angiogenesis was observed over time in hairless mice injected with mPEG-PDLLA copolymers, confirming its potential role in enhancing collagen synthesis. To assess the inflammatory response, the expression levels of the genes MMP1 and IL-1β were analyzed. Additionally, gene expression levels such as transforming growth factor-β and collagen types I and III were compared with Rejuran® in animal studies. The newly developed collagen-stimulating PEGylated PDLLA may be a safe and effective option for skin rejuvenation.
Q1

Synergistic Photocatalytic Oxidation and Reductive Activation of Peroxymonosulfate by Bi-Based Heterojunction for Highly Efficient Organic Pollutant Degradation
Zhao X., Wang Y., Liu F., Ye X., Wei S., Sun Y., He J.
Organic pollutants present a substantial risk to both ecological systems and human well-being. Activation of peroxymonosulfate (PMS) have emerged as an effective strategy for the degradation of organic pollutants. Bi-based heterojunction is commonly used as a photocatalyst for reductively activating PMS, but single-component Bi-based heterojunction frequently underperforms due to its restricted absorption spectrum and rapid combination of photogenerated electron–hole pairs. Herein, BiVO4 was selected as the oxidative semiconductor to form an S-type heterojunction with CuBi2O4—x-CuBi2O4/BiVO4 (x = 0.2, 0.5, and 0.8) for PMS photoactivation. The built-in electric field (BEF) in x-CuBi2O4/BiVO4 promoted electron transfer to effectively activate PMS. The x-CuBi2O4/BiVO4 heterojunctions also demonstrate stronger adsorption of the polar PMS than pure CuBi2O4 or BiVO4. In addition, the BEF prompts photoelectrons able to reduce O2 to •O2− and photogenerated holes in the valence band of BiVO4 able to oxidize H2O to generate •OH. Therefore, under visible light irradiation, 95.1% of ciprofloxacin (CIP) can be degraded. The 0.5-CuBi2O4/BiVO4 demonstrated the best degradation efficiency and excellent stability in cyclic tests, as well as a broad applicability in degrading other common pollutants. The present work demonstrates the high-efficiency S-type heterojunctions in the coupled photocatalytic and PMS activation technology.
Q1

The Composition of the Dispersion Medium Determines the Antibacterial Properties of Copper (II) Oxide Nanoparticles Against Escherichia coli Bacteria
Zakharova O.V., Gusev A.A., Baranchikov P.A., Chebotaryova S.P., Razlivalova S.S., Koiava E.Y., Kataranova A.A., Grigoriev G.V., Strekalova N.S., Krutovsky K.V.
Copper (II) oxide nanoparticles (CuO NPs) attract much attention as a promising antimicrobial agent. We studied the antibacterial properties of three types of CuO NPs against Escherichia coli bacteria: flake-shaped particles with a diameter of 50–200 nm and a thickness of 10–20 nm (CuO-CD synthesized by chemical deposition), spherical particles with a size of 20–90 nm (CuO-EE obtained by electrical explosion), and rod-shaped particles with a length of 100–200 nm and a diameter of 30 × 70 nm (CuO-CS commercial sample). We tested how the shape, size, and concentration of the NPs, and composition of the dispersion medium affected the properties of the CuO NPs. We prepared dispersions based on distilled water, a 0.9% NaCl solution, and the LB broth by Lennox and used Triton X-100 and sodium dodecyl sulfate (SDS) as stabilizers. The concentration of NPs was 1–100 mg L−1. We showed that the dispersion medium composition and stabilizer type had the greatest influence on the antibacterial effects of CuO NPs. We observed the maximum antibacterial effect for all CuO NP types dispersed in water without a stabilizer, as well as in LB broth with the SDS stabilizer. The maximum inhibition of culture growth was observed under the influence of CuO-EE (by 30%) and in the LB broth with the SDS stabilizer (by 1.3–1.8 times depending on the type of particles). In the saline solution, the antibacterial effects were minimal; in some cases, the CuO NPs even promoted bacterial culture growth. SDS increased the antibacterial effects of NPs in broth and saline but decreased them in water. Finally, among the particle types, CuO-CS turned out to be the most bactericidal, which is probably due to their rod-shaped morphology and small diameter. At the same time, the concentration and aggregation effects of CuO NPs in the colloidal systems we studied did not have a linear action on their antibacterial properties. These results can be used in the development of antibacterial coatings and preparations based on CuO NPs to achieve their maximum efficiency, taking into account the expected conditions of their use.
Q1

Recent Advances in Nanostructured Perovskite Oxide Synthesis and Application for Electrocatalysis
Xue X., Li B.
Nanostructured materials have garnered significant attention for their unique properties, such as the high surface area and enhanced reactivity, making them ideal for electrocatalysis. Among these, perovskite oxides, with compositional and structural flexibility, stand out for their remarkable catalytic performance in energy conversion and storage technologies. Their diverse composition and tunable electronic structures make them promising candidates for key electrochemical reactions, including the oxygen evolution reaction (OER), hydrogen evolution reaction (HER), and carbon dioxide reduction (CO2RR). Nanostructured perovskites offer advantages such as high intrinsic activity and enhanced mass/charge transport, which are crucial for improving electrocatalytic performance. In view of the rapid development of nanostructured perovskites over past few decades, this review aims to provide a detailed evaluation of their synthesis methods, including the templating (soft, hard, colloidal), hydrothermal treatments, electrospinning, and deposition approaches. In addition, in-depth evaluations of the fundamentals, synthetic strategies, and applications of nanostructured perovskite oxides for OER, HER, and CO2RR are highlighted. While progress has been made, further research is needed to expand the synthetic methods to create more complex perovskite structures and improve the mass-specific activity and stability. This review offers insights into the potential of nanostructured perovskite oxides in electrocatalysis and provides potential perspectives for the ongoing research endeavor on the nanostructural engineering of perovskites.
Q1

Adsorption of Macrolide Antibiotics by Aged Microplastics of Different Sizes: Mechanisms and Effects
Li Q., Tan J., Sha H., Li K., Li X.
Microplastics (MPs) and antibiotics are widely detected in water bodies. However, the adsorption behavior and mechanism of different particle size polystyrene (PS) MPs on macrolide antibiotics under natural aging remain to be elucidated. In this study, potassium persulfate (K2S2O8) was used to simulate the natural aging process of PS MPs. The adsorption behavior and mechanism of different size PS (80 and 400 μm) toward azithromycin (AZI), clarithromycin (CLA), and erythromycin (ERY) were investigated. Results of SEM showed that the surface roughness of aged PS MPs increased with the appearance of cracks, pits, and pores. XPS and FTIR analyses showed enhanced C=O functional groups in the aging process. The adsorption isotherm models revealed that the aging processes enhanced the AZI, CLA, and ERY adsorption tendency, as evidenced by the highest adsorption capacity for aged-80 μm (645, 665, 184 mg/kg) > original-80 μm (412, 420, 120 mg/kg), and aged-400 μm (280, 330, 110 mg/kg) > original-400 μm (197, 308, 100 mg/kg). Kinetic model fitting revealed that the adsorption process occurred in three stages: rapid, slow, and saturation. Adsorption kinetic curves for original and aged PS MPs conformed to the pseudo-second-order kinetic model. In contrast, the adsorption isotherm data fit the Langmuir model, indicating that the process primarily involved uniform monolayer chemical adsorption. Our findings provide insights into the substantial changes in the interactions between PS and macrolide antibiotics with aging processes.
Q1

Fluid and Electric Field Simulation and Optimization of the Multi-Vane and Multi-Slit Electrospinning Nozzle
Liu J., Dong S., Liu Y., Pan S., Yin Z.
A multi-vane and multi-slit electrospinning nozzle for diversion was proposed to respond to the issues of easiness of clogging, existing End Effect among needles in current multi-needle electrospinning, and uncontrollable Taylor cone position in needleless electrospinning. The upper part of the novel nozzle is a cylindrical straight pipe, and the lower part is a flow channel expansion structure composed of multiple vane components that spread outward at an angle. Ansys software was used to study the effect of different opening angles of the vanes on the spreading of the electrospinning solution. In the fluid simulation, for the novel nozzle with a central slit and a support structure, when the vanes have an opening angle of 35° and a length of 11 mm, the droplet holding time is 16 s, twice as long as the nozzle without support (8 s). This result corresponds to the subsequent droplet holding experiment, showing that the support structure aids droplet holding and enhances electrospinning stability. Comsol Multiphysics software was used to investigate the effect of the vanes’ parameters on the uniformity of the electric field. The results indicate that when the vanes of the new electrospinning nozzle are set at an opening angle of 35°, with four vanes each 11 mm in length, a receiving distance of 200 mm, and a voltage of 30 kV, the novel nozzle achieves an average electric field intensity of 5.26 × 10⁶ V/m with a CV value of 6.93%. Metal 3D printing was used to create a new nozzle for electrospinning, which successfully produced stable multiple jets and increased nanofiber output.
Q1

Feature of Nonlinear Electromagnetic Properties and Local Atomic Structure of Metals in Two Systems of Nanocomposites Cox(MgF2)100−x and (CoFeZr)x(MgF2)100−x
Domashevskaya E.P., Ivkov S.A., Ganshina E.A., Guda L.V., Vlasenko V.G., Sitnikov A.V.
Based on modern concepts of the nonlinear percolation mechanisms of electrical and magnetic properties in granular metal–dielectric nanocomposites, the authors present for the first time a comparative analysis of their own results of a comprehensive study of nonlinear electromagnetic properties in two nanocomposite systems: metal–dielectric Cox(MgF2)100−x and alloy–dielectric (CoFeZr)x(MgF2)100−x, obtained by ion-beam sputtering of composite targets in a wide range of different compositions. For the first time, the features of the influence of atomic composition and structural-phase transitions on nonlinear magnetoresistive, magnetic, and magneto-optical properties in two systems are presented in comparison, one of which, Cox(MgF2)100−x, showed soft magnetic properties, and the second, (CoFeZr)x(MgF2)100−x, hard magnetic properties, during the transition from the superparamagnetic to the ferromagnetic state. Moreover, for the first time, the concentration dependences of the oscillating fine structure of XANES K-absorption edges of Co atoms in the first system and Co and Fe atoms in the second system are presented, which undergo changes at the percolation thresholds in each of the two systems and thus confirm the nonlinear nature of the electromagnetic properties changes in each of the two systems at the atomic level.
Q1

Multiscale Interfacial Structure and Organization of sII Gas Hydrate Interfaces Using Molecular Dynamics
Mathews S., Servio P., Rey A.
Gas hydrate systems display complex structural arrangements in their bulk and interfacial configurations. Controlling nucleation and growth in the context of potential applications requires a characterization of these structures such that they can be manipulated at the atomic and molecular scale to fine tune macroscale applications. This work uses molecular dynamics to show the different methods of identifying interface location and thickness, the drawbacks of certain methods, and proposes improved methodology to overcome sampling issues. We characterize the interfacial position and thickness using structure and dipole-based methods at different conditions for water/sII natural gas hydrate mixtures. We find that phases with similar densities are particularly sensitive to the regression technique employed and may not resolve the thickness of the complex pre-melting layer adequately, while the dipole moments may provide better resolution. The dipole shows the complex natural of the small and compressed layer that presents on the hydrate surface. These results show that the interface is thin but dynamic and careful characterization required analysis of multiple molecular phenomena.
Q1

Oral Exposure to Nylon-11 and Polystyrene Nanoplastics During Early-Life in Rats
Mortensen N.P., Caffaro M.M., Krovi A., Kim J., Watson S.L., Snyder R.W., Patel P.R., Fennell T.R., Johnson L.M.
A critical knowledge gap currently exists regarding the potential risks of exposure to nanoplastics (NPs), particularly early in life during key stages of growth and development. Globally abundant plastics, polyamide (nylon) and polystyrene (PS), exist in various products and have been detected in food and beverages as small-scale plastics. In this study, we evaluated how early-life exposure to NPs affects key biological metrics in rat pups. Male and female animals received an oral dose (20 mg/kg/day) of nylon-11 NPs (114 ± 2 nm) or PS NPs (85 ± 1 nm) between postnatal day (PND) 7 and 10. The results showed slight differences in the ratio of liver weight to body weight for male rat pups exposed to PS NPs. Cardiac performance and levels of neurotransmitters and related metabolites in brain tissue showed no differences between animals exposed to NPs and controls. The endogenous metabolite profile in plasma was altered by oral administration of NPs, suggesting perturbation of metabolic pathways involved in amino acid and lipid metabolism. This study explored the biological impacts of oral NP exposure early in life, supporting the need for continued investigations into the potential health effects from exposure to NPs.
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|
Journal of Rock Mechanics and Geotechnical Engineering
86 citations, 0.11%
|
|
Journal of Cleaner Production
82 citations, 0.1%
|
|
Journal of Geophysics and Engineering
80 citations, 0.1%
|
|
Chemistry and Technology of Fuels and Oils
78 citations, 0.1%
|
|
Petroleum Research
77 citations, 0.1%
|
|
Environmental Earth Sciences
76 citations, 0.09%
|
|
Show all (70 more) | |
1000
2000
3000
4000
5000
6000
7000
|
Citing publishers
5000
10000
15000
20000
25000
30000
|
|
Elsevier
27570 citations, 34.02%
|
|
Society of Petroleum Engineers
19892 citations, 24.55%
|
|
Springer Nature
8669 citations, 10.7%
|
|
American Chemical Society (ACS)
4957 citations, 6.12%
|
|
MDPI
3784 citations, 4.67%
|
|
Wiley
3006 citations, 3.71%
|
|
2086 citations, 2.57%
|
|
Taylor & Francis
1200 citations, 1.48%
|
|
Hindawi Limited
929 citations, 1.15%
|
|
AIP Publishing
761 citations, 0.94%
|
|
ASME International
714 citations, 0.88%
|
|
Frontiers Media S.A.
507 citations, 0.63%
|
|
Cambridge University Press
443 citations, 0.55%
|
|
IOP Publishing
380 citations, 0.47%
|
|
Institute of Electrical and Electronics Engineers (IEEE)
334 citations, 0.41%
|
|
Royal Society of Chemistry (RSC)
307 citations, 0.38%
|
|
Society of Exploration Geophysicists
285 citations, 0.35%
|
|
Editions Technip
254 citations, 0.31%
|
|
American Physical Society (APS)
247 citations, 0.3%
|
|
SAGE
208 citations, 0.26%
|
|
Geological Society of London
193 citations, 0.24%
|
|
Oxford University Press
179 citations, 0.22%
|
|
World Scientific
137 citations, 0.17%
|
|
American Society of Civil Engineers (ASCE)
135 citations, 0.17%
|
|
Society for Industrial and Applied Mathematics (SIAM)
122 citations, 0.15%
|
|
115 citations, 0.14%
|
|
Trans Tech Publications
114 citations, 0.14%
|
|
Pleiades Publishing
113 citations, 0.14%
|
|
IntechOpen
113 citations, 0.14%
|
|
EDP Sciences
108 citations, 0.13%
|
|
GeoScienceWorld
103 citations, 0.13%
|
|
American Geophysical Union
101 citations, 0.12%
|
|
Walter de Gruyter
100 citations, 0.12%
|
|
Korean Society of Industrial Engineering Chemistry
88 citations, 0.11%
|
|
Copernicus
70 citations, 0.09%
|
|
Emerald
68 citations, 0.08%
|
|
Tech Science Press
54 citations, 0.07%
|
|
Public Library of Science (PLoS)
47 citations, 0.06%
|
|
The Royal Society
43 citations, 0.05%
|
|
Geological Society of America
42 citations, 0.05%
|
|
Chinese Academy of Sciences
40 citations, 0.05%
|
|
37 citations, 0.05%
|
|
Soil Science Society of America
34 citations, 0.04%
|
|
Begell House
32 citations, 0.04%
|
|
CSIRO Publishing
32 citations, 0.04%
|
|
ASTM International
28 citations, 0.03%
|
|
Japanese Association for Petroleum Engineers
28 citations, 0.03%
|
|
The Korean Society of Mineral and Energy Resources Engineers
27 citations, 0.03%
|
|
Research Square Platform LLC
26 citations, 0.03%
|
|
Bentham Science Publishers Ltd.
21 citations, 0.03%
|
|
Hans Publishers
21 citations, 0.03%
|
|
King Saud University
20 citations, 0.02%
|
|
Egyptian Petroleum Research Institute
20 citations, 0.02%
|
|
Higher Education Press
19 citations, 0.02%
|
|
Tyumen State University
19 citations, 0.02%
|
|
Japan Petroleum Institute
19 citations, 0.02%
|
|
Ufa State Petroleum Technological University
19 citations, 0.02%
|
|
Georesursy LLC
17 citations, 0.02%
|
|
Association for Computing Machinery (ACM)
16 citations, 0.02%
|
|
Brazilian Society of Chemical Engineering
16 citations, 0.02%
|
|
Taiwan Institute of Chemical Engineers
16 citations, 0.02%
|
|
Industrial University of Tyumen
16 citations, 0.02%
|
|
Ecopetrol
15 citations, 0.02%
|
|
Canadian Science Publishing
15 citations, 0.02%
|
|
Science Alert
15 citations, 0.02%
|
|
Proceedings of the National Academy of Sciences (PNAS)
13 citations, 0.02%
|
|
Thomas Telford
13 citations, 0.02%
|
|
Scientific Research Publishing
13 citations, 0.02%
|
|
Society of Rheology
12 citations, 0.01%
|
|
IOS Press
11 citations, 0.01%
|
|
Saint-Petersburg Mining University
11 citations, 0.01%
|
|
10 citations, 0.01%
|
|
Science in China Press
10 citations, 0.01%
|
|
American Institute of Mathematical Sciences (AIMS)
9 citations, 0.01%
|
|
The Electrochemical Society
9 citations, 0.01%
|
|
IGI Global
9 citations, 0.01%
|
|
American Meteorological Society
8 citations, 0.01%
|
|
The Russian Academy of Sciences
8 citations, 0.01%
|
|
Institute of Continuous Media Mechanics
8 citations, 0.01%
|
|
Keldysh Institute of Applied Mathematics
8 citations, 0.01%
|
|
Optica Publishing Group
7 citations, 0.01%
|
|
American Scientific Publishers
7 citations, 0.01%
|
|
NACE International
7 citations, 0.01%
|
|
IWA Publishing
7 citations, 0.01%
|
|
National Library of Serbia
7 citations, 0.01%
|
|
American Institute of Aeronautics and Astronautics (AIAA)
6 citations, 0.01%
|
|
Institut za Istrazivanja I Projektovanja u Privredi
6 citations, 0.01%
|
|
Lviv Polytechnic National University
6 citations, 0.01%
|
|
Universidad Industrial de Santander
6 citations, 0.01%
|
|
The Geological Society of Korea
6 citations, 0.01%
|
|
Seismological Society of America (SSA)
6 citations, 0.01%
|
|
National Academy of Sciences of Ukraine (Co. LTD Ukrinformnauka) (Publications)
6 citations, 0.01%
|
|
EJournal Publishing
6 citations, 0.01%
|
|
SPIE-Intl Soc Optical Eng
6 citations, 0.01%
|
|
American Mathematical Society
5 citations, 0.01%
|
|
Vincentz Verlag
5 citations, 0.01%
|
|
5 citations, 0.01%
|
|
Japan Society of Civil Engineers
5 citations, 0.01%
|
|
Cold Spring Harbor Laboratory
5 citations, 0.01%
|
|
Society for Sedimentary Geology (SEPM)
5 citations, 0.01%
|
|
Show all (70 more) | |
5000
10000
15000
20000
25000
30000
|
Publishing organizations
50
100
150
200
250
|
|
University of Texas at Austin
217 publications, 6.5%
|
|
Texas A&M University
217 publications, 6.5%
|
|
China University of Petroleum (Beijing)
194 publications, 5.81%
|
|
China University of Petroleum (East China)
146 publications, 4.37%
|
|
Stanford University
143 publications, 4.28%
|
|
University of Calgary
102 publications, 3.05%
|
|
Saudi Aramco
99 publications, 2.96%
|
|
Southwest Petroleum University
97 publications, 2.9%
|
|
University of Alberta
95 publications, 2.84%
|
|
Pennsylvania State University
87 publications, 2.6%
|
|
Delft University of Technology
70 publications, 2.1%
|
|
Heriot-Watt University
54 publications, 1.62%
|
|
Imperial College London
53 publications, 1.59%
|
|
Colorado School of Mines
51 publications, 1.53%
|
|
William Marsh Rice University
50 publications, 1.5%
|
|
University of Stavanger
48 publications, 1.44%
|
|
King Fahd University of Petroleum and Minerals
39 publications, 1.17%
|
|
China University of Geosciences (Beijing)
39 publications, 1.17%
|
|
Missouri University of Science and Technology
38 publications, 1.14%
|
|
Norwegian University of Science and Technology
34 publications, 1.02%
|
|
University of Southern California
34 publications, 1.02%
|
|
University of Houston
34 publications, 1.02%
|
|
University of Bergen
33 publications, 0.99%
|
|
Peking University
32 publications, 0.96%
|
|
Louisiana State University
28 publications, 0.84%
|
|
University of Regina
28 publications, 0.84%
|
|
China University of Geosciences (Wuhan)
25 publications, 0.75%
|
|
Yangtze University
25 publications, 0.75%
|
|
Lawrence Berkeley National Laboratory
25 publications, 0.75%
|
|
King Abdullah University of Science and Technology
20 publications, 0.6%
|
|
Xi'an Shiyou University
20 publications, 0.6%
|
|
Commonwealth Scientific and Industrial Research Organization
19 publications, 0.57%
|
|
Khalifa University
18 publications, 0.54%
|
|
Universidade Federal do Rio de Janeiro
18 publications, 0.54%
|
|
Massachusetts Institute of Technology
17 publications, 0.51%
|
|
Los Alamos National Laboratory
17 publications, 0.51%
|
|
University of Tehran
14 publications, 0.42%
|
|
Sultan Qaboos University
12 publications, 0.36%
|
|
Qingdao University of Technology
12 publications, 0.36%
|
|
Universidade Estadual de Campinas
12 publications, 0.36%
|
|
Technical University of Denmark
11 publications, 0.33%
|
|
University of Adelaide
11 publications, 0.33%
|
|
Tsinghua University
10 publications, 0.3%
|
|
Chengdu University of Technology
10 publications, 0.3%
|
|
Northeast Petroleum University
10 publications, 0.3%
|
|
West Virginia University
10 publications, 0.3%
|
|
Istanbul Technical University
9 publications, 0.27%
|
|
Southern University of Science and Technology
9 publications, 0.27%
|
|
Skolkovo Institute of Science and Technology
8 publications, 0.24%
|
|
Indian Institute of Technology (Indian School of Mines) Dhanbad
8 publications, 0.24%
|
|
Petronas University of Technology
8 publications, 0.24%
|
|
ETH Zurich
8 publications, 0.24%
|
|
Eindhoven University of Technology
8 publications, 0.24%
|
|
Yale University
8 publications, 0.24%
|
|
Texas Tech University
8 publications, 0.24%
|
|
Sandia National Laboratories
8 publications, 0.24%
|
|
Tarbiat Modares University
7 publications, 0.21%
|
|
China University of Mining and Technology
7 publications, 0.21%
|
|
Shandong University of Science and Technology
7 publications, 0.21%
|
|
Chongqing University of Science and Technology
7 publications, 0.21%
|
|
University of Queensland
7 publications, 0.21%
|
|
Virginia Tech
7 publications, 0.21%
|
|
University of Waterloo
7 publications, 0.21%
|
|
Shahid Chamran University of Ahvaz
6 publications, 0.18%
|
|
Jilin University
6 publications, 0.18%
|
|
Texas A&M University at Qatar
6 publications, 0.18%
|
|
Curtin University
6 publications, 0.18%
|
|
University of Tokyo
6 publications, 0.18%
|
|
Lomonosov Moscow State University
5 publications, 0.15%
|
|
Amirkabir University of Technology
5 publications, 0.15%
|
|
Dalian University of Technology
5 publications, 0.15%
|
|
Hohai University
5 publications, 0.15%
|
|
University of Edinburgh
5 publications, 0.15%
|
|
City University of Hong Kong
5 publications, 0.15%
|
|
Harvard University
5 publications, 0.15%
|
|
University of Aberdeen
5 publications, 0.15%
|
|
National Autonomous University of Mexico
5 publications, 0.15%
|
|
University of Minnesota
5 publications, 0.15%
|
|
University of Utah
5 publications, 0.15%
|
|
Indian Institute of Technology Madras
4 publications, 0.12%
|
|
University of Chinese Academy of Sciences
4 publications, 0.12%
|
|
Kuwait University
4 publications, 0.12%
|
|
University of Manchester
4 publications, 0.12%
|
|
National University of Singapore
4 publications, 0.12%
|
|
Edith Cowan University
4 publications, 0.12%
|
|
Arizona State University
4 publications, 0.12%
|
|
Robert Gordon University
4 publications, 0.12%
|
|
National Institute of Advanced Industrial Science and Technology
4 publications, 0.12%
|
|
University of Science and Technology of China
4 publications, 0.12%
|
|
Waseda University
4 publications, 0.12%
|
|
Cranfield University
4 publications, 0.12%
|
|
Sichuan University of Science and Engineering
3 publications, 0.09%
|
|
Xi'an Jiaotong University
3 publications, 0.09%
|
|
Qatar University
3 publications, 0.09%
|
|
Petroliam Nasional Berhad (Petronas)
3 publications, 0.09%
|
|
University of Cambridge
3 publications, 0.09%
|
|
Institute for Energy Technology
3 publications, 0.09%
|
|
University of Western Australia
3 publications, 0.09%
|
|
Rutgers, The State University of New Jersey
3 publications, 0.09%
|
|
Lawrence Livermore National Laboratory
3 publications, 0.09%
|
|
Show all (70 more) | |
50
100
150
200
250
|
Publishing organizations in 5 years
20
40
60
80
100
120
140
|
|
China University of Petroleum (East China)
127 publications, 9.1%
|
|
China University of Petroleum (Beijing)
117 publications, 8.38%
|
|
Texas A&M University
81 publications, 5.8%
|
|
Southwest Petroleum University
80 publications, 5.73%
|
|
University of Texas at Austin
64 publications, 4.58%
|
|
University of Calgary
48 publications, 3.44%
|
|
Saudi Aramco
46 publications, 3.3%
|
|
University of Alberta
46 publications, 3.3%
|
|
Pennsylvania State University
38 publications, 2.72%
|
|
China University of Geosciences (Beijing)
33 publications, 2.36%
|
|
University of Stavanger
30 publications, 2.15%
|
|
King Fahd University of Petroleum and Minerals
28 publications, 2.01%
|
|
Colorado School of Mines
24 publications, 1.72%
|
|
China University of Geosciences (Wuhan)
23 publications, 1.65%
|
|
Missouri University of Science and Technology
23 publications, 1.65%
|
|
University of Houston
20 publications, 1.43%
|
|
Yangtze University
17 publications, 1.22%
|
|
University of Regina
17 publications, 1.22%
|
|
Xi'an Shiyou University
16 publications, 1.15%
|
|
Heriot-Watt University
16 publications, 1.15%
|
|
Peking University
15 publications, 1.07%
|
|
Universidade Federal do Rio de Janeiro
15 publications, 1.07%
|
|
University of Southern California
13 publications, 0.93%
|
|
Louisiana State University
13 publications, 0.93%
|
|
William Marsh Rice University
12 publications, 0.86%
|
|
Qingdao University of Technology
12 publications, 0.86%
|
|
Khalifa University
11 publications, 0.79%
|
|
Norwegian University of Science and Technology
11 publications, 0.79%
|
|
Stanford University
11 publications, 0.79%
|
|
Universidade Estadual de Campinas
10 publications, 0.72%
|
|
King Abdullah University of Science and Technology
9 publications, 0.64%
|
|
Southern University of Science and Technology
9 publications, 0.64%
|
|
Los Alamos National Laboratory
9 publications, 0.64%
|
|
Skolkovo Institute of Science and Technology
8 publications, 0.57%
|
|
University of Tehran
8 publications, 0.57%
|
|
Indian Institute of Technology (Indian School of Mines) Dhanbad
8 publications, 0.57%
|
|
Delft University of Technology
8 publications, 0.57%
|
|
Lawrence Berkeley National Laboratory
8 publications, 0.57%
|
|
Chengdu University of Technology
8 publications, 0.57%
|
|
Tsinghua University
7 publications, 0.5%
|
|
China University of Mining and Technology
7 publications, 0.5%
|
|
Northeast Petroleum University
7 publications, 0.5%
|
|
Shandong University of Science and Technology
6 publications, 0.43%
|
|
Chongqing University of Science and Technology
6 publications, 0.43%
|
|
Imperial College London
6 publications, 0.43%
|
|
University of Bergen
6 publications, 0.43%
|
|
Technical University of Denmark
6 publications, 0.43%
|
|
University of Queensland
6 publications, 0.43%
|
|
Tarbiat Modares University
5 publications, 0.36%
|
|
Jilin University
5 publications, 0.36%
|
|
Dalian University of Technology
5 publications, 0.36%
|
|
ETH Zurich
5 publications, 0.36%
|
|
Hohai University
5 publications, 0.36%
|
|
City University of Hong Kong
5 publications, 0.36%
|
|
Texas Tech University
5 publications, 0.36%
|
|
Amirkabir University of Technology
4 publications, 0.29%
|
|
Shahid Chamran University of Ahvaz
4 publications, 0.29%
|
|
National University of Singapore
4 publications, 0.29%
|
|
Edith Cowan University
4 publications, 0.29%
|
|
Harvard University
4 publications, 0.29%
|
|
National Autonomous University of Mexico
4 publications, 0.29%
|
|
Lomonosov Moscow State University
3 publications, 0.21%
|
|
Indian Institute of Technology Madras
3 publications, 0.21%
|
|
Sichuan University of Science and Engineering
3 publications, 0.21%
|
|
Kuwait University
3 publications, 0.21%
|
|
University of Manchester
3 publications, 0.21%
|
|
Rutgers, The State University of New Jersey
3 publications, 0.21%
|
|
Virginia Tech
3 publications, 0.21%
|
|
University of Waterloo
3 publications, 0.21%
|
|
University of Tokyo
3 publications, 0.21%
|
|
Federal Rural University of Rio de Janeiro
3 publications, 0.21%
|
|
École de Technologie Supérieure
3 publications, 0.21%
|
|
Kazan Federal University
2 publications, 0.14%
|
|
Perm National Research Polytechnic University
2 publications, 0.14%
|
|
Ufa State Petroleum Technological University
2 publications, 0.14%
|
|
Nazarbayev University
2 publications, 0.14%
|
|
Istanbul Technical University
2 publications, 0.14%
|
|
United Arab Emirates University
2 publications, 0.14%
|
|
Islamic Azad University of Shiraz
2 publications, 0.14%
|
|
Petroleum University of Technology Iran
2 publications, 0.14%
|
|
University of Baghdad
2 publications, 0.14%
|
|
Zhejiang University
2 publications, 0.14%
|
|
Shanghai Jiao Tong University
2 publications, 0.14%
|
|
Tongji University
2 publications, 0.14%
|
|
Sichuan University
2 publications, 0.14%
|
|
Xi'an Jiaotong University
2 publications, 0.14%
|
|
Qatar University
2 publications, 0.14%
|
|
Nanjing Tech University
2 publications, 0.14%
|
|
Nanjing Hydraulic Research Institute
2 publications, 0.14%
|
|
Wuhan University
2 publications, 0.14%
|
|
Chongqing University
2 publications, 0.14%
|
|
Yanshan University
2 publications, 0.14%
|
|
University of Science and Technology Beijing
2 publications, 0.14%
|
|
Shenzhen University
2 publications, 0.14%
|
|
Sultan Qaboos University
2 publications, 0.14%
|
|
Changzhou University
2 publications, 0.14%
|
|
University of Edinburgh
2 publications, 0.14%
|
|
Massachusetts Institute of Technology
2 publications, 0.14%
|
|
University of South-Eastern Norway
2 publications, 0.14%
|
|
Argonne National Laboratory
2 publications, 0.14%
|
|
Show all (70 more) | |
20
40
60
80
100
120
140
|
Publishing countries
200
400
600
800
1000
1200
1400
|
|
USA
|
USA, 1364, 40.83%
USA
1364 publications, 40.83%
|
China
|
China, 626, 18.74%
China
626 publications, 18.74%
|
Canada
|
Canada, 238, 7.12%
Canada
238 publications, 7.12%
|
Norway
|
Norway, 183, 5.48%
Norway
183 publications, 5.48%
|
Saudi Arabia
|
Saudi Arabia, 143, 4.28%
Saudi Arabia
143 publications, 4.28%
|
United Kingdom
|
United Kingdom, 116, 3.47%
United Kingdom
116 publications, 3.47%
|
Netherlands
|
Netherlands, 94, 2.81%
Netherlands
94 publications, 2.81%
|
Brazil
|
Brazil, 57, 1.71%
Brazil
57 publications, 1.71%
|
Australia
|
Australia, 51, 1.53%
Australia
51 publications, 1.53%
|
Iraq
|
Iraq, 46, 1.38%
Iraq
46 publications, 1.38%
|
Iran
|
Iran, 40, 1.2%
Iran
40 publications, 1.2%
|
UAE
|
UAE, 26, 0.78%
UAE
26 publications, 0.78%
|
Japan
|
Japan, 23, 0.69%
Japan
23 publications, 0.69%
|
Russia
|
Russia, 22, 0.66%
Russia
22 publications, 0.66%
|
France
|
France, 22, 0.66%
France
22 publications, 0.66%
|
Denmark
|
Denmark, 20, 0.6%
Denmark
20 publications, 0.6%
|
Germany
|
Germany, 18, 0.54%
Germany
18 publications, 0.54%
|
Sweden
|
Sweden, 18, 0.54%
Sweden
18 publications, 0.54%
|
India
|
India, 17, 0.51%
India
17 publications, 0.51%
|
Oman
|
Oman, 15, 0.45%
Oman
15 publications, 0.45%
|
Turkey
|
Turkey, 15, 0.45%
Turkey
15 publications, 0.45%
|
Malaysia
|
Malaysia, 13, 0.39%
Malaysia
13 publications, 0.39%
|
Italy
|
Italy, 11, 0.33%
Italy
11 publications, 0.33%
|
Qatar
|
Qatar, 11, 0.33%
Qatar
11 publications, 0.33%
|
Kuwait
|
Kuwait, 8, 0.24%
Kuwait
8 publications, 0.24%
|
Mexico
|
Mexico, 7, 0.21%
Mexico
7 publications, 0.21%
|
Republic of Korea
|
Republic of Korea, 7, 0.21%
Republic of Korea
7 publications, 0.21%
|
Switzerland
|
Switzerland, 7, 0.21%
Switzerland
7 publications, 0.21%
|
Austria
|
Austria, 5, 0.15%
Austria
5 publications, 0.15%
|
Vietnam
|
Vietnam, 5, 0.15%
Vietnam
5 publications, 0.15%
|
Kazakhstan
|
Kazakhstan, 4, 0.12%
Kazakhstan
4 publications, 0.12%
|
Singapore
|
Singapore, 4, 0.12%
Singapore
4 publications, 0.12%
|
Chile
|
Chile, 4, 0.12%
Chile
4 publications, 0.12%
|
Israel
|
Israel, 3, 0.09%
Israel
3 publications, 0.09%
|
Tanzania
|
Tanzania, 3, 0.09%
Tanzania
3 publications, 0.09%
|
Jamaica
|
Jamaica, 3, 0.09%
Jamaica
3 publications, 0.09%
|
Belgium
|
Belgium, 2, 0.06%
Belgium
2 publications, 0.06%
|
Ghana
|
Ghana, 2, 0.06%
Ghana
2 publications, 0.06%
|
Greece
|
Greece, 2, 0.06%
Greece
2 publications, 0.06%
|
Egypt
|
Egypt, 2, 0.06%
Egypt
2 publications, 0.06%
|
Colombia
|
Colombia, 2, 0.06%
Colombia
2 publications, 0.06%
|
Nigeria
|
Nigeria, 2, 0.06%
Nigeria
2 publications, 0.06%
|
New Zealand
|
New Zealand, 2, 0.06%
New Zealand
2 publications, 0.06%
|
Poland
|
Poland, 2, 0.06%
Poland
2 publications, 0.06%
|
Portugal
|
Portugal, 1, 0.03%
Portugal
1 publication, 0.03%
|
Azerbaijan
|
Azerbaijan, 1, 0.03%
Azerbaijan
1 publication, 0.03%
|
Algeria
|
Algeria, 1, 0.03%
Algeria
1 publication, 0.03%
|
Greenland
|
Greenland, 1, 0.03%
Greenland
1 publication, 0.03%
|
Pakistan
|
Pakistan, 1, 0.03%
Pakistan
1 publication, 0.03%
|
Panama
|
Panama, 1, 0.03%
Panama
1 publication, 0.03%
|
Puerto Rico
|
Puerto Rico, 1, 0.03%
Puerto Rico
1 publication, 0.03%
|
Romania
|
Romania, 1, 0.03%
Romania
1 publication, 0.03%
|
Serbia
|
Serbia, 1, 0.03%
Serbia
1 publication, 0.03%
|
Slovenia
|
Slovenia, 1, 0.03%
Slovenia
1 publication, 0.03%
|
Thailand
|
Thailand, 1, 0.03%
Thailand
1 publication, 0.03%
|
Philippines
|
Philippines, 1, 0.03%
Philippines
1 publication, 0.03%
|
Finland
|
Finland, 1, 0.03%
Finland
1 publication, 0.03%
|
French Guiana
|
French Guiana, 1, 0.03%
French Guiana
1 publication, 0.03%
|
Czech Republic
|
Czech Republic, 1, 0.03%
Czech Republic
1 publication, 0.03%
|
Show all (29 more) | |
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Publishing countries in 5 years
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450
500
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|
China
|
China, 474, 33.95%
China
474 publications, 33.95%
|
USA
|
USA, 421, 30.16%
USA
421 publications, 30.16%
|
Canada
|
Canada, 109, 7.81%
Canada
109 publications, 7.81%
|
Saudi Arabia
|
Saudi Arabia, 69, 4.94%
Saudi Arabia
69 publications, 4.94%
|
Norway
|
Norway, 59, 4.23%
Norway
59 publications, 4.23%
|
Brazil
|
Brazil, 39, 2.79%
Brazil
39 publications, 2.79%
|
United Kingdom
|
United Kingdom, 31, 2.22%
United Kingdom
31 publications, 2.22%
|
Iraq
|
Iraq, 28, 2.01%
Iraq
28 publications, 2.01%
|
Iran
|
Iran, 27, 1.93%
Iran
27 publications, 1.93%
|
Australia
|
Australia, 17, 1.22%
Australia
17 publications, 1.22%
|
Russia
|
Russia, 16, 1.15%
Russia
16 publications, 1.15%
|
India
|
India, 15, 1.07%
India
15 publications, 1.07%
|
UAE
|
UAE, 15, 1.07%
UAE
15 publications, 1.07%
|
Netherlands
|
Netherlands, 14, 1%
Netherlands
14 publications, 1%
|
Sweden
|
Sweden, 11, 0.79%
Sweden
11 publications, 0.79%
|
Germany
|
Germany, 9, 0.64%
Germany
9 publications, 0.64%
|
Japan
|
Japan, 9, 0.64%
Japan
9 publications, 0.64%
|
France
|
France, 8, 0.57%
France
8 publications, 0.57%
|
Denmark
|
Denmark, 7, 0.5%
Denmark
7 publications, 0.5%
|
Qatar
|
Qatar, 5, 0.36%
Qatar
5 publications, 0.36%
|
Kuwait
|
Kuwait, 5, 0.36%
Kuwait
5 publications, 0.36%
|
Turkey
|
Turkey, 5, 0.36%
Turkey
5 publications, 0.36%
|
Kazakhstan
|
Kazakhstan, 4, 0.29%
Kazakhstan
4 publications, 0.29%
|
Vietnam
|
Vietnam, 4, 0.29%
Vietnam
4 publications, 0.29%
|
Italy
|
Italy, 4, 0.29%
Italy
4 publications, 0.29%
|
Malaysia
|
Malaysia, 4, 0.29%
Malaysia
4 publications, 0.29%
|
Mexico
|
Mexico, 4, 0.29%
Mexico
4 publications, 0.29%
|
Singapore
|
Singapore, 4, 0.29%
Singapore
4 publications, 0.29%
|
Switzerland
|
Switzerland, 4, 0.29%
Switzerland
4 publications, 0.29%
|
Tanzania
|
Tanzania, 3, 0.21%
Tanzania
3 publications, 0.21%
|
Ghana
|
Ghana, 2, 0.14%
Ghana
2 publications, 0.14%
|
Egypt
|
Egypt, 2, 0.14%
Egypt
2 publications, 0.14%
|
Oman
|
Oman, 2, 0.14%
Oman
2 publications, 0.14%
|
Republic of Korea
|
Republic of Korea, 2, 0.14%
Republic of Korea
2 publications, 0.14%
|
Chile
|
Chile, 2, 0.14%
Chile
2 publications, 0.14%
|
Portugal
|
Portugal, 1, 0.07%
Portugal
1 publication, 0.07%
|
Azerbaijan
|
Azerbaijan, 1, 0.07%
Azerbaijan
1 publication, 0.07%
|
Algeria
|
Algeria, 1, 0.07%
Algeria
1 publication, 0.07%
|
Belgium
|
Belgium, 1, 0.07%
Belgium
1 publication, 0.07%
|
Greece
|
Greece, 1, 0.07%
Greece
1 publication, 0.07%
|
Colombia
|
Colombia, 1, 0.07%
Colombia
1 publication, 0.07%
|
Nigeria
|
Nigeria, 1, 0.07%
Nigeria
1 publication, 0.07%
|
Pakistan
|
Pakistan, 1, 0.07%
Pakistan
1 publication, 0.07%
|
Poland
|
Poland, 1, 0.07%
Poland
1 publication, 0.07%
|
Romania
|
Romania, 1, 0.07%
Romania
1 publication, 0.07%
|
Serbia
|
Serbia, 1, 0.07%
Serbia
1 publication, 0.07%
|
Slovenia
|
Slovenia, 1, 0.07%
Slovenia
1 publication, 0.07%
|
Thailand
|
Thailand, 1, 0.07%
Thailand
1 publication, 0.07%
|
Finland
|
Finland, 1, 0.07%
Finland
1 publication, 0.07%
|
French Guiana
|
French Guiana, 1, 0.07%
French Guiana
1 publication, 0.07%
|
Czech Republic
|
Czech Republic, 1, 0.07%
Czech Republic
1 publication, 0.07%
|
Jamaica
|
Jamaica, 1, 0.07%
Jamaica
1 publication, 0.07%
|
Show all (22 more) | |
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